The Scherrer’s equation explains that the smaller the crystallite size, the broader the XRD peake. Single big crystal gives a sharp peak. Now, when you decrease the size of the crystal, the peak gets broader, which means less sharp.
Atoms or molecules are the smallest ... These atoms or molecules combine to form particles, grains, or crystallite ... If we talk about ultra-thin film with size 1 nm. This means that the ultra-thin film is made up of a few atomic layers.... It proves that atoms are the smallest and particles are made up of atoms
nicely explained, but you said crystallite size and grain size are equal in the tem image, then how will it be different i think this will be the same for all cases. so for every sample the particle and grain size will be same? you should have showed on tem with crystallite and grain size different.
Oh my God...if we do SEM for a bulk pellet, we say grains are found and it is grain size. If we crush the bulk pellet into powder and perform SEM we call it particle size. Is my view wrong sir? Please clarify
@@qamarwali A particle is composed of grains, grains is consist of singly oriented lattice planes. which can be observed by HRTEM. with SEM, one can only see the external morphology, and you can assess the particle size, but it is not useful in all cases,
I think it may be due to the different atomic radii of the dopants and the host element. You have to check the atomic radii of the both then you can draw a conclusion about the increase or decrease crystallite/ grain of the final product.
@@qamarwali Sir I have same question. I doped CeO2 with Pr and La. Both Pr and La are larger than Ce. But the crystallite size decreased (using Scherrer equation). I don't get it why, may you explain? Thanks
Thanks sir . Your videos are great. You make it simple and clear. May Allah bless you and live you long.... keep it up...
You are welcome Sir. I am happy that you like it.
Wow sir great it is clear now Allah bless you and live you long.... keep it up...
I am glade you like it. Thanks for appreciation
how crystallite size gives peak broadening in xrd pattern? I could not find an explaination in book.
let me know if u have found the answer
The Scherrer’s equation explains that the smaller the crystallite size, the broader the XRD peake. Single big crystal gives a sharp peak. Now, when you decrease the size of the crystal, the peak gets broader, which means less sharp.
Sorry for the late response
isnt it particle is atom/molecules ? then how atom form crystallite then grain then particles again
Atoms or molecules are the smallest ...
These atoms or molecules combine to form particles, grains, or crystallite ...
If we talk about ultra-thin film with size 1 nm. This means that the ultra-thin film is made up of a few atomic layers.... It proves that atoms are the smallest and particles are made up of atoms
nicely explained, but you said crystallite size and grain size are equal in the tem image, then how will it be different i think this will be the same for all cases. so for every sample the particle and grain size will be same? you should have showed on tem with crystallite and grain size different.
Yes I meant that grain and crystallite are same
Can you please Tell me how to find particle size from sem (manually)!
I think better to use TEM in order to see particle size. SEM can not see deeper details. I have made videos in TEM
Great Sir
Thanks a lot sir. This is really an awesome. Thanks a lot. Please make a video on XPS technique especially about analysis part.
Thank you very much. Could you explain how to calculate grain size and with which program or equation, please?
Sorry for the late response. I have already uploaded videos on this topic.
Oh my God...if we do SEM for a bulk pellet, we say grains are found and it is grain size. If we crush the bulk pellet into powder and perform SEM we call it particle size.
Is my view wrong sir? Please clarify
You are absolutely correct. Particle are bigger than the grain
@@qamarwali A particle is composed of grains,
grains is consist of singly oriented lattice planes. which can be observed by HRTEM.
with SEM, one can only see the external morphology, and you can assess the particle size, but it is not useful in all cases,
@@din9212 yes Particle > grain > crystalite
Sir..what can be the reason that crystalite size and grain size both are increasinge with doping concentration??
I think it may be due to the different atomic radii of the dopants and the host element. You have to check the atomic radii of the both then you can draw a conclusion about the increase or decrease crystallite/ grain of the final product.
@@qamarwali Sir I have same question. I doped CeO2 with Pr and La. Both Pr and La are larger than Ce. But the crystallite size decreased (using Scherrer equation). I don't get it why, may you explain? Thanks
Kudos to you 💓, how easily you explained it
Thank you very much. I am glad it helps
Thanks alot for your efforts
I am much Happy it helps
Thank you sir
❤️❤️❤️❤️❤️ From Pakistan
Thank you sir